The granular cells of Galleria mellonella during clotting and phagocytic reactions in vitro

Light and electron-microscopic observations of the blood-cells (hemocytes) of the wax-moth Galleria mellonella showed that hemolymph coagulation was initiated by the rapid release of material from the granular cells. During incubation for short terms in vitro these cells showed progressive degranulation as material derived from the granules was discharged into the hemolymph. Attempts to determine the nature of this material by staining with ruthenium red proved mainly unsuccessful. When challenged with bacteria in vitro the granular cells failed to phagocytose these particles and instead the bacteria became embedded in the granular material surrounding these cells. The mode of coagulation reported here is compared with previous reports of the role of invertebrate hemocytes in hemolymph clotting.     

Venom of Euplectrus separatae causes hyperlipidemia by lysis of host fat body cells

Although the lepidopteran larva Pseudaletia separata is attacked by the gregarious ectoparasitoid Euplectrus separatae, it continues to feed and grow. Lipid concentration in the hemolymph of the parasitized host was higher than that of the nonparasitized host from 3 to 8 days after parasitization. Artificial injection of parasitoid venom also elevated lipid concentration in the host hemolymph. One day after venom injection the host's fat body contained many lipid particles, but most of the lipid particles disappeared 7 days later. Light microscopy and transmission electron microscopy showed the lipid particles leaving the fat body cells as a result of the lysis of the fat body cells. These results suggest that the venom elevated the lipid concentration in the host hemolymph by provoking the release of lipid particles from the fat body. Though most of the lipid particles were freely floating in the host hemolymph, a portion of the released lipid particles were phagocytized by hemocytes. The amount of lipid that was loaded to lipophorin in the hemolymph of the venom-injected host was measured, but it was not sufficient to explain the high lipid titer in the hemolymph of parasitized and venom-injected host larvae. The fact that parasitoid larva consumed many hemocytes as evidenced by their presence in the midgut supported the hypothesis that the parasitoid larvae fed on the host hemolymph containing the free lipid particles, the hemocytes phagocytizing the lipid particles, and the lipid-loaded lipophorin. The possibility of the venom contribution to the disruption of the intercellular matrix was examined. The venom showed high activity of matrix metalloproteinase (MMP), especially when it was mixed with the hemolymph of non-parasitized 5th instar larvae. We suggest that the MMP in the venom was activated by some components of the host hemolymph. On the other hand, the venom mixed with hemolymph could not decompose gelatin on zymography, suggesting that the venom-MMP is a different type from gelatinase. Activity of phospholipases A(2), B, C and hyaluronidase were measured with agar plates. High activities of phospholipase B and hyaluronidase were detected. These results suggest that the venom-MMP initially attacked the specific site of the intercellular-matrix of the fat body, and then the hyaluronidase and the phospholipase B cause lysis of the fat body cell, allowing lipid particles to be released into the host hemolymph.     

Immunocytochemical localization of a calcium-binding phosphoprotein in hemocytes of heterodont bivalves

Calcium-binding phosphoprotein particles are the most abundant extracellular proteins in the hemolymph of heterodont bivalves, and granular hemocytes are the most abundant cells in the same fluid. In this study, the hemocytes of Rangia cuneata were examined ultrastructurally and probed with anti-phosphoprotein IgG to demonstrate that the granulocytes are a probable source of the hemolymph phosphoprotein. The granulocyte cytoplasm is laden with large vesicles containing an amorphous homogenous matrix and variable numbers of electron-dense particles; the latter are ultrastructurally similar to the extracellular phosphoprotein. The vesicle particles and matrix are related forms of the hemolymph phosphoprotein as evidenced by heavy gold labeling when Lowicryl sections were sequentially treated with rabbit-anti-phosphoprotein IgG and colloidal gold-anti-rabbit IgG. The vesicles may be the loci for posttranslational phosphorylation and eventual secretion of the calcium-binding phosphoprotein, or alternatively the vesicles may be digestive structures which degrade internalized phosphoprotein.     

Coagulocyte alterations in clotting hemolymph of Carausius morosus L.

1. The structural changes in the coagulocytes of Carausius morosus during hemolymph coagulation in vitro have been studied under the PCM and in the TEM. 2. In agreement with former PCM observations on Carausius morosus, the coagulocytes are the only hemocytes to induce coagulation of the plasma. Immediately or after a few seconds upon withdrawal of the hemolymph, their structural changes consist of a considerable enlargement of the perinuclear cysterna and of direct ejection into the plasma of nuclear and cytoplasmic substances through microruptures of the cytoplasmic membrane. The other categories of hemocytes do not contribute to the plasma coagulation. Their structural alterations take place without breakage of the cytoplasmic membrane when the plasma reactions are already established. 4. These plasma reactions appear in the form of circular islands of granular material around the coagulocytes, of extension of the coagulum in the channels between the islands and of transformation of the clot into a network of threads. 5. As reported in other studies in the TEM, no specific organelle characteristic of the coagulocyte ultrastructure could be found in the coagulocytes of Carausius. 6. Owing to the absence of any specific structural criterion of identification, the results suggest that the functional difference between coagulocytes and the other categories of hemocytes as regards coagulation of the plasma might be caused in part by differences of permeability of the cell membranes.     

EPR detection of reactive oxygen species in hemolymph of Galleria mellonella and Dendrolimus superans sibiricus (Lepidoptera) larvae.

The formation of reactive oxygen species (ROS) in hemolymph and hemocytes of Galleria mellonella and Dendrolimus superans sibiricus larvae was studied by ESR spectroscopy using spin-trap 1-hydroxy-3-carboxy-pyrrolidine (CP-H). The background level of ROS formation was detected in the intact hemolymph. The addition of dihydroxyphenylalanine (DOPA) into free cells of the hemolymph increased CP-H oxidation about two times for G. mellonella and about four times for D. superans sibiricus. This increase was completely inhibited by a specific inhibitor of phenoloxidase, phenylthiourea. The presence of exogenous superoxide dismutase (SOD) did not change CP-H oxidation in the hemolymph. The data obtained in hemocytes showed only a DOPA-induced increase in CP-H oxidation. Phagocytosis activators did not affect ROS formation in hemocytes of both insect species. SOD decreased DOPA-induced CP-H oxidation 20-30% in suspension of hemocytes of D. superans sibiricus only. Our results are in agreement with the contribution of superoxide radical and DOPA-derived quinones/semiquinones in the immune response of insects.     

Integument and hemocyte peptides

There are four routing classes of integument peptide in the caterpillar of Calpodes ethlius. The epidermis secretes peptides apically into the cuticle (C), basally into the hemolymph (H) and in both directions (BD). Peptides in a 4th class (T), are presumed to be transported across the epidermis, because the epidermis does not synthesize them although they occur in both cuticle and hemolymph. In a search for the origin of the presumed transepidermal peptides we found that hemocytes contain some peptides from all four routing classes. Peptides prepared from washed hemocytes reacted in immunoblots to antibodies against integument peptides prepared from hemolymph and cuticle. These peptides are probably synthesized by hemocytes because they matched those from medium containing [³⁵S]methionine in which hemocytes had been incubated. Calpodes hemolymph contains four hemocyte types. Immunogold labelling localized integument peptides in the secretory pathway of granulocytes and spherulocytes and in the cytosol of oenocytoids but not in plasmatocytes. Each peptide was localized in a particular kind or kinds of hemocyte. Granulocyte secretory vesicles reacted with antibodies to C180, C55 and BD82 kDa peptides. Spherulocytes secretory vesicles reacted with antibodies to C180, C55, BD89, BD82 and a 78 kDa peptide presumed to be the precursor of T66. Oenocyotoids reacted with antibodies to H45, 38, 32, 23 and BD89 kDa peptides. Spherulocytes were the only tissue to react with antibodies to the T66 kDa peptide that is found abundantly in cuticle and hemolymph. Spherulocytes are therefore presumed to secrete the 66 kDa peptide into the hemolymph from where it is transported to the cuticle. The C180 and C55 kDa peptides do not occur in hemolymph. Their presence in granulocytes and spherulocytes may be associated with hemocyte functions such as basal lamina formation, since immunogold localized them in that part of the basal lamina next to the hemolymph, as would be expected if hemocytes deposited components onto the exposed hemolymph surface. The presence of hemolymph peptides in oenocytoids is more difficult to interpret, since the antigenic reactions are localized in the cytosol rather than in the secretory pathway expected for exported proteins. We conclude that integument peptides are not secreted only by the epidermis, nor is the cuticle their only destination.     

昆虫hemocytin蛋白研究进展

本课题组前期研究发现,绿僵菌素A与家蚕Bombyx mori的hemocytin蛋白互作,强烈抑制血淋巴免疫,预示hemocytin可能成为一种杀虫剂的新型作用靶标。因此,进一步了解hemocytin十分必要。Hemocytin是昆虫血淋巴免疫的重要因子,作为一种凝集素,介导血淋巴中的凝血、结节和囊胞化过程,防止表皮破损造成的血淋巴外溢和微生物入侵,并参与对已入侵病原的固定与清除。昆虫的hemocytin一般由3 000～4 000个氨基酸组成,是一个巨大的多结构域蛋白,含有多个重复排列的结构域,包括FA58C (coagulation factor 5 or 8 C-terminal), VWD (von Willebrand factor type D), TIL (trypsin inhibitor like cysteine rich), VWC (von Willebrand factor type C), CT (C-terminal cystine knot-like), C8 (8 conserved cysteine residues), ChtBD2 (chitin...     

The cellular immune response of the pea aphid to foreign intrusion and symbiotic challenge

Recent studies suggest that the pea aphid (Acyrthosiphon pisum) has low immune defenses. However, its immune components are largely undescribed, and notably, extensive characterization of circulating cells has been missing. Here, we report characterization of five cell categories in hemolymph of adults of the LL01 pea aphid clone, devoid of secondary symbionts (SS): prohemocytes, plasmatocytes, granulocytes, spherulocytes and wax cells. Circulating lipid-filed wax cells are rare; they otherwise localize at the basis of the cornicles. Spherulocytes, that are likely sub-cuticular sessile cells, are involved in the coagulation process. Prohemocytes have features of precursor cells. Plasmatocytes and granulocytes, the only adherent cells, can form a layer in vivo around inserted foreign objects and phagocytize latex beads or Escherichia coli bacteria injected into aphid hemolymph. Using digital image analysis, we estimated that the hemolymph from one LL01 aphid contains about 600 adherent cells, 35% being granulocytes. Among aphid YR2 lines differing only in their SS content, similar results to LL01 were observed for YR2-Amp (without SS) and YR2-Ss (with Serratia symbiotica), while YR2-Hd (with Hamiltonella defensa) and YR2(Ri) (with Regiella insecticola) had strikingly lower adherent hemocyte numbers and granulocyte proportions. The effect of the presence of SS on A. pisum cellular immunity is thus symbiont-dependent. Interestingly, Buchnera aphidicola (the aphid primary symbiont) and all SS, whether naturally present, released during hemolymph collection, or artificially injected, were internalized by adherent hemocytes. Inside hemocytes, SS were observed in phagocytic vesicles, most often in phagolysosomes. Our results thus raise the question whether aphid symbionts in hemolymph are taken up and destroyed by hemocytes, or actively promote their own internalization, for instance as a way of being transmitted to the next generation. Altogether, we demonstrate here a strong interaction between aphid symbionts and immune cells, depending upon the symbiont, highlighting the link between immunity and symbiosis.     

Fat body and hemocyte contribution to the antimicrobial peptide synthesis in <Emphasis Type="Italic">Calliphora vicina</Emphasis> R.-D. (Diptera: Calliphoridae) larvae

Antimicrobial peptides accumulated in the hemolymph in response to infection are a key element of insect innate immunity. The involvement of the fat body and hemocytes in the antimicrobial peptide synthesis is widely acknowledged, although release of the peptides present in the hemolymph from the immune cells was not directly verified so far. Here, we studied the presence of antimicrobial peptides in the culture medium of fat body cells and hemocytes isolated from the blue blowfly Calliphora vicina using complex of liquid chromatography, mass spectrometry, and antimicrobial activity assays. Both fat body and hemocytes are shown to synthesize and release to culture medium defensin, cecropin, diptericins, and proline-rich peptides. The spectra of peptide antibiotics released by the fat body and hemocytes partially overlap. Thus, the results suggest that insect fat body and blood cells are capable of releasing mature antimicrobial peptides to the hemolymph. It is notable that the data obtained demonstrate dramatic difference in the functioning of insect antimicrobial peptides and their mammalian counterparts localized into blood cells’ phagosomes where they exert their antibacterial activity.     

Opsonic involvement in phagocytosis by mollusk hemocytes.

Macrophages from the gastrophod mollusk Otala lactea are capable of in vitro recognition and phagocytosis of foreign particles such as yeast, mammalian erythrocytes, and bacteria. The degree of intensity of the phagocytic response, in certain instances, is governed by the surface characteristics of the particle in question as well as by the presence of opsonic factors.Hemagglutinins have been implicated as opsonins in certain invertebrates, including mollusks. Otala lacks serum lectins; however, its hemolymph stimulates phagocytosis of formalized yeast but not erythrocytes and bacteria. Hemagglutinin-containing extracts of Otala albumin gland were shown to opsonize formalized red cells. The rate of ingestion of the bacteria used in this study by Otala hemocytes was variable and was not influenced by the presence of hemolymph in the medium.     

Surface antigens of Biomphalaria glabrata (Gastropoda) hemocytes: occurrence of membrane-associated hemolymph-like factors antigenically related to snail hemoglobin

A polyvalent antiserum (anti-H_PR) generated in rabbits to cell-free hemolymph from a PR albino (M-line) stock of snail, Biomphalaria glabrata, was employed as a membrane probe to determine if antigens related to snail hemolymph were associated with the surface membranes of phosphate-buffered saline (PBS) washed hemocytes from a schistosome-susceptible (PR albino) and refractory (10-R2) stock of B. glabrata. Immunofluorescent and immunoelectron microscopical analyses revealed a strong cross-reactivity between anti-H_PR antibodies and hemocytes from both PR albino and 10-R2 snails indicating the presence of surface-associated hemolymph or hemolymph-like antigens. Hemoglobin isolated from PR albino B. glabrata hemolymph competitively inhibited the binding of anti-H_PR to hemocytes suggesting that cross-reactive membrane components were, at least in part, antigenically related to snail hemoglobin. Antigens reactive with antihemolymph antibodies also were resistant to protease treatment. No antigenic differences between PR albino and 10-R2 snail hemocytes could be detected due to the heterospecific nature of the probe antiserum, however, it is believed that the major cross-reactive membrane components, e.g., hemoglobin-like determinants, are shared in common by hemocytes of both snail stocks.     

Presence of ACTH and beta-endorphin immunoreactive molecules in the freshwater snail Planorbarius corneus (L.) (Gastropoda, Pulmonata) and their possible role in phagocytosis

The presence of ACTH and beta-endorphin immunoreactive molecules in the cell-free hemolymph and in the hemocytes of the freshwater snail Planorbarius corneus were demonstrated by immunocytochemistry and RIA tests. Only spreading phagocytic hemocytes were positive, in contrast with other hemocytes devoid of phagocytic activity, i.e., round hemocytes. These data were confirmed by flow cytometry. Another cell type with marked phagocytic activity, i.e., digestive cells of digestive gland, were also positive to anti-ACTH. Corticotropin-releasing factor immunoreactive molecules were found in the cell-free hemolymph and hemocytes, by RIA. Our data suggest that cells with phagocytic activity, the oldest immune response, may represent a suitable model to unravel the tangled web of the common ancestor of the immune and the neuroendocrine systems.     

Host-derived extracellular nucleic acids enhance innate immune responses, induce coagulation, and prolong survival upon infection in insects

Extracellular nucleic acids play important roles in human immunity and hemostasis by inducing IFN production, entrapping pathogens in neutrophil extracellular traps, and providing procoagulant cofactor templates for induced contact activation during mammalian blood clotting. In this study, we investigated the functions of extracellular RNA and DNA in innate immunity and hemolymph coagulation in insects using the greater wax moth Galleria mellonella a reliable model host for many insect and human pathogens. We determined that coinjection of purified Galleria-derived nucleic acids with heat-killed bacteria synergistically increases systemic expression of antimicrobial peptides and leads to the depletion of immune-competent hemocytes indicating cellular immune stimulation. These activities were abolished when nucleic acids had been degraded by nucleic acid hydrolyzing enzymes prior to injection. Furthermore, we found that nucleic acids induce insect hemolymph coagulation in a similar way as LPS. Proteomic analyses revealed specific RNA-binding proteins in the hemolymph, including apolipoproteins, as potential mediators of the immune response and hemolymph clotting. Microscopic ex vivo analyses of Galleria hemolymph clotting reactions revealed that oenocytoids (5-10% of total hemocytes) represent a source of endogenously derived extracellular nucleic acids. Finally, using the entomopathogenic bacterium Photorhabdus luminescens as an infective agent and Galleria caterpillars as hosts, we demonstrated that injection of purified nucleic acids along with P. luminescens significantly prolongs survival of infected larvae. Our results lend some credit to our hypothesis that host-derived nucleic acids have independently been co-opted in innate immunity of both mammals and insects, but exert comparable roles in entrapping pathogens and enhancing innate immune responses.     

In vitro bacteridical capacity of Blaberus craniifer hemocytes

Blaberus craniifer hemocytes, maintained in short-term culture, are capable of phagocytosing and destroying Staphylococcus aureus, Staphylococcus albus, Streptococcus faecalis, Serratia marcescens, and Proteus mirabilis. The observed bactericidal activity of the hemocyte suspensions was entirely a function of the phagocytes; the medium, the hemolymph, and cell products elaborated during incubations were not bactericidal. No humoral opsonic factors were required for, or facilitated, bacterial phagocytosis in vitro. Washed hemocyte monolayers bathed by hemolymph-free medium were capable of phagocytosing bacteria. The addition of hemolymph concentrated by ultrafiltration did not increase the bactericidal capacity of the hemocytes. Bacteria opsonized with concentrated hemolymph were not killed more efficiently than were untreated bacteria.A partial blockage of bactericidal capacity was induced by prior exposure of the hemocytes to bacteria or to latex particles. The functional blockade was more complete with bacteria than with latex particles.Pseudomonas aeruginosa, Escherichia coli, Salmonella typhosa, and Diplococcus pneumoniae were phagocytosed but not killed by the hemocytes. This lack of bactericidal activity suggests that roaches may encounter difficulty in eliminating these organisms from the hemocoel. However, deficient bactericidal capacity probably does not entirely correlate with pathogenicity since the known insect pathogens, Staphylococcus albus, Serratia marcescens, and Proteus mirabilis, are killed by the hemocytes. Pathogenicity seems to depend on a complex of factors including bacterial strain, dose received, and intracellular survival of ingested bacteria. A possible connection between the lack of hemocytic bactericidal capacity and the role of roaches as potential disease vectors warrants further investigation.     

Silkworm (<Emphasis Type="Italic">Bombyx mori</Emphasis>) hemocytes do not produce reactive oxygen metabolites as a part of defense mechanisms

To investigate whether hemocytes of Bombyx mori (Lepidoptera) larvae produce reactive oxygen species (ROS) as part of the oxidative killing of invading pathogens, the production of ROS was measured as a luminol- and lucigenin-enhanced chemiluminescence of unstimulated or stimulated (zymosan particles, phorbol myristate acetate, calcium ionophore, rice starch or Xenorhabdus nematophila) hemolymph. No detectable ROS production was found. The spontaneous and activated ROS production measured with hemocytes, i.e. under the conditions when the antioxidative potential of hemolymph plasma was eliminated, was again undetectable. Likewise, ROS production by isolated hemocytes was observed by spectrophotometric (NBT test, cytochrome c assay) and fluorimetric (using dihydrorhodamine and hydroethidine probes) methods. Hence none of the experimental approaches used indicated the production of ROS by hemocytes of B. mori larvae as part of their immune response.     

Site of hemolymph lectin production and its activation in vitro by 20-hydroxyecdysone

To identify the tissues which produce hemolymph lectin in larvae of Bombyx mori, ovary, testis, fat body, and hemocytes from 5th-instar larvae were cultured in vitro and the culture medium was partially purified and assayed for hemagglutinating activity. Among the tissues tested, hemocytes appeared to be a major source of the hemolymph lectins. Ovary produced lectins to about one-tenth of the amount observed for the hemocytes, whereas testis and fat body were not productive. To study the hormonal control of hemolymph lectin production by hemocytes, hemocytes from 4th-instar larvae were cultured in vitro. Hemagglutinating activity in the hemolymph of 4th-instar larvae was immunostainable with the monoclonal antibody raised against 350,000 dalton lectin found in the 5th-instar hemolymph, but their molecular sizes were larger than the 5th-instar hemolymph lectins. When 20-hydroxyecdysone was added into the medium, production of the lectin by the hemocytes was remarkably enhanced, depending upon the hormone concentration.     

Phagocytosis by hemocytes of the hard clam, Mercenaria mercenaria.

Large granular hemocytes of Mercenaria mercenaria avidly phagocytose a variety of biological particles (red blood cells of six species, yeast, and gram-positive and gram-negative bacteria) as well as polystyrene spheres. Clam hemolymph is not necessary for phagocytosis but may have some opsonic effect in certain circumstances (e.g., low temperature and low particle density). Formaldehyde treatment of red blood cells enhances susceptibility to phagocytosis. Phagocytosis by Mercenaria hemocytes in vitro appears to be a nonspecific process.     

Apoferritin in the vacuolar system of insect hemocytes

Electron microscopy showed no holoferritin in either the cytosol or the vacuolar system of hemocytes (granulocytes) from normal Calpodes ethlius larvae. This does not mean that ferritin is normally absent from hemocytes, since apoferritin lacks contrast and would not be observed. In vitro iron in glycerol treatment of hemocytes from normal larvae caused holoferritin cores to be visible in the rough endoplasmic reticulum, suggesting that hemocytes from normal larvae contain apoferritin. Hemocytes are therefore like the fat body, and could also be a source of hemolymph ferritin. After loading the hemolymph with iron in vivo, many holoferritin cores were resolvable in the vacuolar system of some hemocytes. Ferritin synthesis can therefore be induced by elevated hemolymph iron levels. Iron loading of epidermis and heart showed similar ferritin cores but more rarely. In all tissues they occurred in the secretory pathway and not in the cytosol.